/*
   Copyright (c) 2004, 2010, Oracle and/or its affiliates. All rights reserved.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301  USA
*/

#include <ndb_global.h>
#include <ndb_opts.h>
#include <NDBT.hpp>
#include <NdbApi.hpp>
#include <HugoTransactions.hpp>
#include <Bitmask.hpp>
#include <Vector.hpp>

static const char* _dbname = "TEST_DB";
static int g_loops = 7;

struct my_option my_long_options[] =
{
  NDB_STD_OPTS("ndb_desc"),
  { 0, 0, 0, 0, 0, 0, GET_NO_ARG, NO_ARG, 0, 0, 0, 0, 0, 0}
};

static const NdbDictionary::Table* create_random_table(Ndb*);
static int transactions(Ndb*, const NdbDictionary::Table* tab);
static int unique_indexes(Ndb*, const NdbDictionary::Table* tab);
static int ordered_indexes(Ndb*, const NdbDictionary::Table* tab);
static int node_restart(Ndb*, const NdbDictionary::Table* tab);
static int system_restart(Ndb*, const NdbDictionary::Table* tab);
static int testBitmask();

int 
main(int argc, char** argv){
  NDB_INIT(argv[0]);
  const char *load_default_groups[]= { "mysql_cluster",0 };
  load_defaults("my",load_default_groups,&argc,&argv);
  int ho_error;

  if ((ho_error=handle_options(&argc, &argv, my_long_options,
			       ndb_std_get_one_option)))
    return NDBT_ProgramExit(NDBT_WRONGARGS);

  int res = NDBT_FAILED;

  /* Run cluster-independent tests */
  for (int i=0; i<(10*g_loops); i++)
  {
    if (NDBT_OK != (res= testBitmask()))
      return NDBT_ProgramExit(res);
  }
  
  Ndb_cluster_connection con(opt_ndb_connectstring, opt_ndb_nodeid);
  if(con.connect(12, 5, 1))
  {
    return NDBT_ProgramExit(NDBT_FAILED);
  }
  

  Ndb* pNdb;
  pNdb = new Ndb(&con, _dbname);  
  pNdb->init();
  while (pNdb->waitUntilReady() != 0) {};

  NdbDictionary::Dictionary * dict = pNdb->getDictionary();

  const NdbDictionary::Table* pTab = 0;
  for (int i = 0; i < (argc ? argc : g_loops) ; i++)
  {
    res = NDBT_FAILED;
    if(argc == 0)
    {
      pTab = create_random_table(pNdb);
    }
    else
    {
      dict->dropTable(argv[i]);
      NDBT_Tables::createTable(pNdb, argv[i]);
      pTab = dict->getTable(argv[i]);
    }
    
    if (pTab == 0)
    {
      ndbout << "Failed to create table" << endl;
      ndbout << dict->getNdbError() << endl;
      break;
    }
    
    if(transactions(pNdb, pTab))
      break;

    if(unique_indexes(pNdb, pTab))
      break;

    if(ordered_indexes(pNdb, pTab))
      break;
    
    if(node_restart(pNdb, pTab))
      break;
    
    if(system_restart(pNdb, pTab))
      break;

    dict->dropTable(pTab->getName());
    res = NDBT_OK;
  }

  if(res != NDBT_OK && pTab)
  {
    dict->dropTable(pTab->getName());
  }
  
  delete pNdb;
  return NDBT_ProgramExit(res);
}

static 
const NdbDictionary::Table* 
create_random_table(Ndb* pNdb)
{
  do {
    NdbDictionary::Table tab;
    Uint32 cols = 1 + (rand() % (NDB_MAX_ATTRIBUTES_IN_TABLE - 1));
    const Uint32 maxLength = 4090;
    Uint32 length = maxLength;
    Uint8  defbuf[(maxLength + 7)/8];
    
    BaseString name; 
    name.assfmt("TAB_%d", rand() & 65535);
    tab.setName(name.c_str());
    for(Uint32 i = 0; i<cols && length > 2; i++)
    {
      NdbDictionary::Column col;
      name.assfmt("COL_%d", i);
      col.setName(name.c_str());
      if(i == 0 || i == 1)
      {
	col.setType(NdbDictionary::Column::Unsigned);
	col.setLength(1); 
	col.setNullable(false);
	col.setPrimaryKey(i == 0);
	tab.addColumn(col);
	continue;
      }
      
      col.setType(NdbDictionary::Column::Bit);
      
      Uint32 len = 1 + (rand() % (length - 1));
      memset(defbuf, 0, (length + 7)/8);
      for (Uint32 j = 0; j < len/8; j++)
        defbuf[j] = 0x63;
      col.setDefaultValue(defbuf, (len + 7)/8);
      col.setLength(len); length -= len;
      int nullable = (rand() >> 16) & 1;
      col.setNullable(nullable); length -= nullable;
      col.setPrimaryKey(false);
      tab.addColumn(col);
    }
    
    pNdb->getDictionary()->dropTable(tab.getName());
    if(pNdb->getDictionary()->createTable(tab) == 0)
    {
      ndbout << (NDBT_Table&)tab << endl;
      return pNdb->getDictionary()->getTable(tab.getName());
    }
  } while(0);
  return 0;
}

static 
int
transactions(Ndb* pNdb, const NdbDictionary::Table* tab)
{
  int i = 0;
  HugoTransactions trans(* tab);
  i |= trans.loadTable(pNdb, 1000);
  i |= trans.pkReadRecords(pNdb, 1000, 13); 
  i |= trans.scanReadRecords(pNdb, 1000, 25);
  i |= trans.pkUpdateRecords(pNdb, 1000, 37);
  i |= trans.scanUpdateRecords(pNdb, 1000, 25);
  i |= trans.pkDelRecords(pNdb, 500, 23);
  i |= trans.clearTable(pNdb);
  return i;
}

static 
int 
unique_indexes(Ndb* pNdb, const NdbDictionary::Table* tab)
{
  return 0;
}

static 
int 
ordered_indexes(Ndb* pNdb, const NdbDictionary::Table* tab)
{
  return 0;
}

static 
int 
node_restart(Ndb* pNdb, const NdbDictionary::Table* tab)
{
  return 0;
}

static 
int 
system_restart(Ndb* pNdb, const NdbDictionary::Table* tab)
{
  return 0;
}

/* Note : folowing classes test functionality of storage/ndb/src/common/util/Bitmask.cpp
 * and were originally defined there.
 * Set BITMASK_DEBUG to 1 to get more test debugging info.
 */
#define BITMASK_DEBUG 0

static
bool cmp(const Uint32 b1[], const Uint32 b2[], Uint32 len)
{
  Uint32 sz32 = (len + 31) >> 5;
  for(Uint32 i = 0; i<len; i++)
  {
    if(BitmaskImpl::get(sz32, b1, i) ^ BitmaskImpl::get(sz32, b2, i))
      return false;
  }
  return true;
}

static
void print(const Uint32 src[], Uint32 len, Uint32 pos = 0)
{
  printf("b'");
  for(unsigned i = 0; i<len; i++)
  {
    if(BitmaskImpl::get((pos + len + 31) >> 5, src, i+pos))
      printf("1");
    else
      printf("0");
    if((i & 31) == 31)
      printf(" ");
  }
}

static int lrand()
{
  return rand();
}

static
void rand(Uint32 dst[], Uint32 len)
{
  for(Uint32 i = 0; i<len; i++)
    BitmaskImpl::set((len + 31) >> 5, dst, i, (lrand() % 1000) > 500);
}

static
int checkCopyField(const Uint32 totalTests)
{
  ndbout << "Testing : Checking Bitmaskimpl::copyField";

  const Uint32 numWords= 95;
  const Uint32 maxBitsToCopy= (numWords * 32);
  
  Uint32 sourceBuf[numWords];
  Uint32 targetTest[numWords];
  Uint32 targetCopy[numWords];

  rand(sourceBuf, maxBitsToCopy);
  
  /* Set both target buffers to the same random values */
  rand(targetTest, maxBitsToCopy);
  for (Uint32 i=0; i<maxBitsToCopy; i++)
    BitmaskImpl::set(numWords, targetCopy, i, 
                     BitmaskImpl::get(numWords, targetTest, i));

  if (!cmp(targetTest, targetCopy, maxBitsToCopy))
  {
    ndbout_c("copyField :: Initial setup mismatch");
    return -1;
  }

  for (Uint32 test=0; test < totalTests; test++)
  {
    Uint32 len= rand() % maxBitsToCopy;
    Uint32 slack= maxBitsToCopy - len;
    Uint32 srcPos= slack ? rand() % slack : 0;
    Uint32 dstPos= slack ? rand() % slack : 0;

    if (BITMASK_DEBUG)
      ndbout_c("copyField :: Running test with len=%u, srcPos=%u, dstPos=%u, "
               "srcOff=%u, dstOff=%u",
               len, srcPos, dstPos, srcPos & 31, dstPos & 31);

    /* Run the copy */
    BitmaskImpl::copyField(targetCopy, dstPos, sourceBuf, srcPos, len);

    /* Do the equivalent action */
    for (Uint32 i=0; i< len; i++)
      BitmaskImpl::set(numWords, targetTest, dstPos + i,
                       BitmaskImpl::get(numWords, sourceBuf, srcPos+i));

    bool fail= false;
    /* Compare results */
    for (Uint32 i=0; i<maxBitsToCopy; i++)
    {
      if (BitmaskImpl::get(numWords, targetCopy, i) !=
          BitmaskImpl::get(numWords, targetTest, i))
      {
        ndbout_c("copyField :: Mismatch at bit %u, should be %u but is %u",
                 i, 
                 BitmaskImpl::get(numWords, targetTest, i),
                 BitmaskImpl::get(numWords, targetCopy, i));
        fail=true;
      }
    }

    if (fail)
      return -1;
  }

  return 0;
}

static
int checkNoTramplingGetSetField(const Uint32 totalTests)
{
  const Uint32 numWords= 67;
  const Uint32 maxBitsToCopy= (numWords * 32);
  Uint32 sourceBuf[numWords];
  Uint32 targetBuf[numWords];

  ndbout << "Testing : Bitmask NoTrampling\n";

  memset(sourceBuf, 0x00, (numWords*4));

  for (Uint32 test=0; test<totalTests; test++)
  {
    /* Always copy at least 1 bit */
    Uint32 srcStart= rand() % (maxBitsToCopy -1);
    Uint32 length= (rand() % ((maxBitsToCopy -1) - srcStart)) + 1;

    if (BITMASK_DEBUG)
      ndbout << "Testing start %u, length %u \n"
             << srcStart
             << length;
    // Set target to all ones.
    memset(targetBuf, 0xff, (numWords*4));

    BitmaskImpl::getField(numWords, sourceBuf, srcStart, length, targetBuf);

    // Check that there is no trampling
    Uint32 firstUntrampledWord= (length + 31)/32;

    for (Uint32 word=0; word< numWords; word++)
    {
      Uint32 targetWord= targetBuf[word];
      if (BITMASK_DEBUG)
        ndbout << "word=%d, targetWord=%u, firstUntrampledWord..=%u"
               << word << targetWord << firstUntrampledWord;

      if (! (word < firstUntrampledWord) ?
          (targetWord == 0) :
          (targetWord == 0xffffffff))
      {
        ndbout << "Notrampling getField failed for srcStart "
               << srcStart
               << " length " << length
               << " at word " << word << "\n";
        ndbout << "word=%d, targetWord=%u, firstUntrampledWord..=%u"
               << word << targetWord << firstUntrampledWord;
        return -1;
      }

    }

    /* Set target back to all ones. */
    memset(targetBuf, 0xff, (numWords*4));

    BitmaskImpl::setField(numWords, targetBuf, srcStart, length, sourceBuf);

    /* Check we've got all ones, with zeros only where expected */
    for (Uint32 word=0; word< numWords; word++)
    {
      Uint32 targetWord= targetBuf[word];

      for (Uint32 bit=0; bit< 32; bit++)
      {
        Uint32 bitNum= (word << 5) + bit;
        bool expectedValue= !((bitNum >= srcStart) &&
                              (bitNum < (srcStart + length)));
        bool actualValue= (((targetWord >> bit) & 1) == 1);
        if (BITMASK_DEBUG)
          ndbout << "bitNum=%u expectedValue=%u, actual value=%u"
                 << bitNum << expectedValue << actualValue;

        if (actualValue != expectedValue)
        {
          ndbout << "Notrampling setField failed for srcStart "
                 << srcStart
                 << " length " << length
                 << " at word " << word << " bit " << bit <<  "\n";
          ndbout << "bitNum=%u expectedValue=%u, actual value=%u"
                 << bitNum << expectedValue << actualValue;
          return -1;
        }
      }
    }

  }

  return 0;
}

static
int simple(int pos, int size)
{
  ndbout << "Testing : Bitmask simple pos: " << pos << " size: " << size << "\n";
  Vector<Uint32> _mask;
  Vector<Uint32> _src;
  Vector<Uint32> _dst;
  Uint32 sz32 = (size + pos + 32) >> 5;
  const Uint32 sz = 4 * sz32;

  Uint32 zero = 0;
  _mask.fill(sz32+1, zero);
  _src.fill(sz32+1, zero);
  _dst.fill(sz32+1, zero);

  Uint32 * src = _src.getBase();
  Uint32 * dst = _dst.getBase();
  Uint32 * mask = _mask.getBase();

  memset(src, 0x0, sz);
  memset(dst, 0x0, sz);
  memset(mask, 0xFF, sz);
  rand(src, size);
  BitmaskImpl::setField(sz32, mask, pos, size, src);
  BitmaskImpl::getField(sz32, mask, pos, size, dst);
  if (BITMASK_DEBUG)
  {
    printf("src: "); print(src, size+31); printf("\n");
    printf("msk: "); print(mask, (sz32 << 5) + 31); printf("\n");
    printf("dst: "); print(dst, size+31); printf("\n");
  }
  return (cmp(src, dst, size+31)?0 : -1);
};

struct Alloc
{
  Uint32 pos;
  Uint32 size;
  Vector<Uint32> data;
};

static
int
testRanges(Uint32 bitmask_size)
{
  Vector<Alloc> alloc_list;
  bitmask_size = (bitmask_size + 31) & ~31;
  Uint32 sz32 = (bitmask_size >> 5);
  Vector<Uint32> alloc_mask;
  Vector<Uint32> test_mask;

  ndbout_c("Testing : Bitmask ranges for bitmask of size %d", bitmask_size);
  Uint32 zero = 0;
  alloc_mask.fill(sz32, zero);
  test_mask.fill(sz32, zero);

  /* Loop a number of times, setting and clearing bits in the mask
   * and tracking the modifications in a separate structure.
   * Check that both structures remain in sync
   */
  for(int i = 0; i<5000; i++)
  {
    Vector<Uint32> tmp;
    tmp.fill(sz32, zero);

    Uint32 pos = lrand() % (bitmask_size - 1);
    Uint32 free = 0;
    if(BitmaskImpl::get(sz32, alloc_mask.getBase(), pos))
    {
      // Bit was allocated
      // 1) Look up allocation
      // 2) Check data
      // 3) free it
      size_t j;
      Uint32 min, max;
      for(j = 0; j<alloc_list.size(); j++)
      {
	min = alloc_list[j].pos;
	max = min + alloc_list[j].size;
	if(pos >= min && pos < max)
	{
	  break;
	}
      }
      if (! ((pos >= min) && (pos < max)))
      {
        printf("Failed with pos %u, min %u, max %u\n",
               pos, min, max);
        return -1;
      }
      BitmaskImpl::getField(sz32, test_mask.getBase(), min, max-min,
			    tmp.getBase());
      if(BITMASK_DEBUG)
      {
	printf("freeing [ %d %d ]", min, max);
	printf("- mask: ");
	print(tmp.getBase(), max - min);

	printf(" save: ");
	size_t k;
	Alloc& a = alloc_list[j];
	for(k = 0; k<a.data.size(); k++)
	  printf("%.8x ", a.data[k]);
	printf("\n");
      }
      if(!cmp(tmp.getBase(), alloc_list[j].data.getBase(), max - min))
      {
	return -1;
      }
      while(min < max)
	BitmaskImpl::clear(sz32, alloc_mask.getBase(), min++);
      alloc_list.erase(j);
    }
    else
    {
      Vector<Uint32> tmp;
      tmp.fill(sz32, zero);

      // Bit was free
      // 1) Check how much space is avaiable
      // 2) Create new allocation of lrandom size
      // 3) Fill data with lrandom data
      // 4) Update alloc mask
      while(pos+free < bitmask_size &&
	    !BitmaskImpl::get(sz32, alloc_mask.getBase(), pos+free))
	free++;

      Uint32 sz =
	(free <= 64 && ((lrand() % 100) > 80)) ? free : (lrand() % free);
      sz = sz ? sz : 1;
      sz = pos + sz == bitmask_size ? sz - 1 : sz;
      Alloc a;
      a.pos = pos;
      a.size = sz;
      a.data.fill(((sz+31)>> 5)-1, zero);
      if(BITMASK_DEBUG)
	printf("pos %d -> alloc [ %d %d ]", pos, pos, pos+sz);
      for(size_t j = 0; j<sz; j++)
      {
	BitmaskImpl::set(sz32, alloc_mask.getBase(), pos+j);
	if((lrand() % 1000) > 500)
	  BitmaskImpl::set((sz + 31) >> 5, a.data.getBase(), j);
      }
      if(BITMASK_DEBUG)
      {
	printf("- mask: ");
	print(a.data.getBase(), sz);
	printf("\n");
      }
      BitmaskImpl::setField(sz32, test_mask.getBase(), pos, sz,
			    a.data.getBase());
      alloc_list.push_back(a);
    }
  }

#define NDB_BM_SUPPORT_RANGE
#ifdef NDB_BM_SUPPORT_RANGE
  for(Uint32 i = 0; i<1000; i++)
  {
    Uint32 sz32 = 10+rand() % 100;
    Uint32 zero = 0;
    Vector<Uint32> map;
    map.fill(sz32, zero);

    Uint32 sz = 32 * sz32;
    Uint32 start = (rand() % sz);
    Uint32 stop = start + ((rand() % (sz - start)) & 0xFFFFFFFF);

    Vector<Uint32> check;
    check.fill(sz32, zero);

    /* Verify range setting method works correctly */
    for(Uint32 j = 0; j<sz; j++)
    {
      bool expect = (j >= start && j<stop);
      if(expect)
	BitmaskImpl::set(sz32, check.getBase(), j);
    }

    BitmaskImpl::setRange(sz32, map.getBase(), start, stop - start + 1);
    if (!BitmaskImpl::equal(sz32, map.getBase(), check.getBase()))
    {
      ndbout_c(" FAIL 1 sz: %d [ %d %d ]", sz, start, stop);
      printf("check: ");
      for(Uint32 j = 0; j<sz32; j++)
	printf("%.8x ", check[j]);
      printf("\n");

      printf("map  : ");
      for(Uint32 j = 0; j<sz32; j++)
	printf("%.8x ", map[j]);
      printf("\n");
      return -1;
    }

    map.clear();
    check.clear();

    /* Verify range clearing method works correctly */
    Uint32 one = ~(Uint32)0;
    map.fill(sz32, one);
    check.fill(sz32, one);

    for(Uint32 j = 0; j<sz; j++)
    {
      bool expect = (j >= start && j<stop);
      if(expect)
	BitmaskImpl::clear(sz32, check.getBase(), j);
    }

    BitmaskImpl::clear_range(sz32, map.getBase(), start, stop);
    if (!BitmaskImpl::equal(sz32, map.getBase(), check.getBase()))
    {
      ndbout_c(" FAIL 2 sz: %d [ %d %d ]", sz, start, stop);
      printf("check: ");
      for(Uint32 j = 0; j<sz32; j++)
	printf("%.8x ", check[j]);
      printf("\n");

      printf("map  : ");
      for(Uint32 j = 0; j<sz32; j++)
	printf("%.8x ", map[j]);
      printf("\n");
      return -1;
    }
  }
#endif

  return 0;
}

static
int
testBitmask()
{
  /* Some testcases from storage/ndb/src/common/util/Bitmask.cpp */
  int res= 0;

  if ((res= checkNoTramplingGetSetField(100 /* totalTests */)) != 0)
    return res;

  if ((res= checkCopyField(1000)) != 0)
    return res;

  if ((res= simple(rand() % 33, // position
                   (rand() % 63)+1) // size
       ) != 0)
    return res;

  if ((res= testRanges(1+(rand() % 1000) // bitmask size
                       )) != 0)
    return res;

  return 0;
}

template class Vector<Alloc>;
